Thermostable phenylacetic acid degradation protein TtPaaI from Thermus thermophilus as a scaffold for tetravalent display of proteins.

Numerous proteins in nature strictly require oligomerization for their full activity. Moreover, the function of natural and artificial proteins can me adjusted by altering their oligomeric state, leading to development of biotechnologically-relevant biomacromolecules. Oligomerization scaffolds from natural sources and designed de novo enable shuffling the oligomeric state and valency of biomacromolecules. In this report we probed the scaffolding potential of the thermostable phenylacetic acid degradation protein acyl-CoA from Thermus thermophilus (TtPaaI). We designed and successfully produced the fusion protein between TtPaaI (scaffold) and galectin-7, a multifunctional lectin implicated in human diseases (ligand) and demonstrated that TtPaaI can serve as a framework for functional multivalent display of ligands.
(Copyright © 2024. Published by Elsevier Inc.)